Feeding, cutting, and transfer mechanism



Jan. 9, 1951 F. G. wlKsTROM 2,537,386

FEEDING, CUTTING, AND TRANSFER MECHANISM Filed June l2, 1948 5 Sheets-Sheet l f J? ff fa zg l /y .07W fa ILE h @AM /b.

Jan. 9, 1951 F. G. wlKsTRoM 2,537,386

FEEDTNG, CUTTING, AND TRANSFER MECHANISM Filed June 12, 1948 SYSheets-Sheet 2 Jan. 9, 1951 F. G. wnsTRoM 2,537,386

FEEDING, CUTTING, AND TRANSFER NECHANISM Filed June l2, 1948 5 Sheets-Sheet 5 Jan. 9, 1951 F. G. Wl KSTROM FEEDING, CUTTING, AND TRANSFER MECHANISM Filed June 12, 1948 Eff-aff- 5 Sheets-Sheet 4 A Jan. 9, 1951 F. G. wlKs-ROM 2,537,335

TEEDTNG, CUTTING, AND TRANSFER NECHANISM Filed June 12, 1948 5 sheets-sheet 5 gli @M Patented Jan. 9, 1951 UNIT-Eo STATES PATENT 2,537,386 j OFFICE Application lune 12, 1948, SeriaLNo. 32,665

13y Claims.. 11'

invention relates to electric welding ma'- ehines and more particularlyto a machine for welding bimetallic contact' elements to leaf springs for use in electromagnetic relays or other electrical apparatus.

" This* machine isdescribed irr greater detail and' claimed applicantsI copending application,

of stock, transferred to: the welding position and' weldedv in. a uniform economical ina-nner.

Another object of the invention is. to.` provide an improved and eflicient4 severing mechanism. for producing contact elements. from a continnous strip of stool:` material whereby the contactV element will bev severed and transferred? to: a

position. infy advance of' the welding` electrodes one continuous unidirectional movement of the severing mechanism.

In. accordance with one: embodiment oiv the ine vention, an. electric welding machine. for welding contacts to; leaf springs is provided in which. a continuous strip:` of contact: material is.A advanced intermittently through a guide channel to ar pair of vertically reciprocating jaws which are slidj ably mounted adjacent to a pair of weldingL electrodes. The upper jaw movesl downward to grip a. section oi the strip between the jaws: and then the jaws continue to move dotmward past the guide channel to.v sever a contact, by shearing the advanced portion. of the strip. material against the lower edge ci the guide channel.. The jaws then continue in their downward. movement to carry the severed contact into a position, in ad-` vanne oi a pusher rods. rhere the jaws are partially separated and the pusher rod advances to deliver the Contact to the Welding position between an upper and lower electrode which are compressed against the leaf spring and the con.- tact to; weld these parts together and complete the operation..

@ther features and advantagesl of theinvention wihbeceme apparent from, the following de, tailed description taken. in conjunction with th accompanying drawings, in which: 1

Fig. l is: a fragmentary front elevational view ci a welding machine embodying the features. of thisinvention; Fig. y2Lis. an enlarged sectional View of thev operating mechanism 'ier the. welding electrodes of the'apparatusl shown in Fig., l;

Fig; isa top plan view of the welding ma'- chine shown in Fig). 1'? Y y f Fig; 4 is a detailed#-perspective View v oi the Gratin-g linkage forV the lower welding electrode shown. ini Figs. l 'and' 2;= 7

Fig. 5 is an enlarged detailed fron-t viewof the contact feeding and delivering mechanism of the; apparatus shown in Fig. I,

Fig. 61 is a-n end View' of' the feed mechanismshown in Fig. 5'- looking fromv right' to left;vv

Fig. 'i' is a cross section taken on line T-T ot Fig. 5 lookin-g in the direction indicated by the arrows;

Fig. 8 is an' enlarged fragmentary perspective viewy of the feeding mechanism of Fig. 5;

Fig- 9v is an enlarged front elevational ViewI` of the contact severing 'andf transferring mechanism show-n Fig; 1;

Figs; 10, lll andl l21 are detailed vertical cross sectionalv views-f taken on line lli- Ilot Fig: 9; showing the various'` positionss of the-'component members of' the contact severing mechanism at' the diiierent stages of an operating cycle;

Figs. 123l and 143are enlarged v-i'ews ofthe gri-p... ping and' severing jaws shown in Figs'. l0 and 11':

Fig. 'l5 is a. cross: section takenon line I'5-l5. ci Fig. I3' looking in the direction indicated by the arrows.; L

Fig. 16 is` an enlarged detailed View of the lower portion of4 Fig; .9XV showing' they guide channels: for the contact. material;

Fig. 1'7" is a cross-.sectional 'viewta-ken on yline lil-il of Fig. i6. looking iny the direction indi-l cated by the arrows;

Fig; 18' is a. cross-sectional View taken on line I8-|18of Fig.. 1'6 looking in the direction indicated bythe; arrows; and

Figi. '19 ist a, perspective View of the contact guide bracket shown in' Fig. 18.

Referring now to: the drawings, wherein. reference: numerals: designate the same` parts throughout. the several views', vattention is rst directed to Fig'. l where the. numeral Ill designates a. housing or base forv supportingy the var'- ious: parts; and assemblies in their operative po-y sitions'. The basev t0 is securely mounted upon aA tablev l l by means of' bolts I2; An adjustable xture i3 oi suitable contourv is mounted on top of the table H' for supporting a switch or leaf spring It or other electrical part on which-- a Contact is to be welded. AsA shown in Fi'g.'1,' the left end' of the switch spring I4 projects beyond the iixturev [3 into a gap between an upperwelding electrode l5 v.and a lower welding electrode i8.; these electrodes yat the time of the positioning of the switch leaf spring upon the fixture being appreciably spaced'apart for thev purpose of facilitatingV the positioning of the spring. y.lllthough'. in the illustrated embodiment of the in.,-

.the springs: M'- are manuallypos-itionel nature i3, suitable automatic means niay i ciated Withthe machine for automatialiyf and intermittently feeding a train of leaf springs forward to the welding position in timed relation to the operation of the welding machine.

Journaled in the base l is a cam shaft l1 upon which are fixed rotatable cams I8, |3, 2G, 2| and 22 which control the ope ation of the welding electrodes |5||i- Fand other. various mechanisms in a predetermined sequence. An. electric motor 23 has a driving pulley 24 for a belt 25 which drives a pulley |25 rotatably mounted on the rear end of the cam shaft l1.

Interposed between the driven pulley and the cam shaft is a conventional one revolution clutch |26 (Fig. 3) operated by momentarily depressing a foot pedal controlled rod 26 whereby the cam shaft and the cams thereon traverse through a single revolution. Upon completion of a single rotation of the cam shaft the clutch |26 is auton matically disengaged to interrupt the drive to the cam shaft |1 to stop the rotation of the cams and the sequence of operations until the rod 26 is depressed again to repeat the cycle of operations.

The lower welding electrode IE which is made of `copper has formed integral therewith a threaded shank 21. This threaded shank is adjustably mounted in a bushing 28 positioned within a recess in an insulator block 29. The insulatorI block 29 is positioned between a conductor bar 3U and a collar 3|, the latter beine pinned to a hollow cylindrical slide 32. It is through this conductor bar 30- that electrical energy is supplied to the lower electrode during the welding operation. VThe cylindrical slide 32 is located in reciprocating relation within a recess of a sliding member 33. The sliding member 33 is mounted to reciprocate within a bearing memberB which is rigidly secured to the table l A compressible spring 34 placed within the recess which passes through aglongitudinal central aperture in slide member 33-and is threaded into positive engagement with lthe slide 32. The lower portion of sliding member `33 is bifurcated and a slidable block 31 is pivotally mounted therein.,

An operating arm 38,2;pivotally supported at its middle portion by a yoke 39, is bifurcatedat both ends and one end is in operative engagement with the slidable block 31. The opposite end of this operating arm. 38 is similarly mounted within a bifurcated block 4E. A push rodV 4| is secured to the block 40 and at the opposite end of the push rod is mounted a roller 42 (Figs. 3 and 4) so'as to be in operative engagement with the cam I8.

The upper welding electrode,l I5 is secured to an offset member 43 by means of a stud 44 and a wing nut 45. peripheral notches 65 for receiving the contact to be welded and is rotatably adjustable on its support to permit vproper alignment. The offset member' i3 is secured to an insulator block. f6 which in turn is secured to a recessed slide 41. A power lead 48 attached to the offset member 43 conducts current to the upper welding electrode. The recessed slide 41 extends through a bearing housing 49 and is longitudinally slidable therein.

plug 53 is threaded into a stop support member 54 which is secured to the bearing housing 49. Thus while the upper electrode I5 is in its nonwelding position, the compression spring 52 will continually exert a force tending to move the slide41 and push rod 50 down. The upper end of the push rod is threaded to receive adjusting nuts 55 and 55 (Fig. 1). Slidably mounted on the push rod is a collar 51 having a circumferential slot 63. A lever arm 59 has a split section 64 that surrounds the collar 51. Fixed to each side of the inner `surface of this split section G4 is a pivot pin 58 which slides in the slot 63. Thus oscillatory motion of the lever arm 59 is imparted to the push rod 5D as reciprocatory motion. One end of tlie'lever arm 59 is pivotally mounted at 60 on the housing 49. The opposite end of the lever arm 59 has mounted thereon a follower roller 6I which engages the cam I9 due to the action of the compression spring 52 on the push rod 50.

The mechanism for feeding and delivering a contact strip to a severing mechanism is supported on an elongated feeding mechanism frame 'lll mounted on the base or housing lil. The contact metal is introduced into the machine in the form of a continuous strip or tape 1| of suitable cross section for satisfactory welding and electrical service. The strip may be bimetallic and is rolled or otherwise formed into the required cross section. As shown in Fig. 5, the strip 'H is drawn through a fixed cylindrical guide 12 by meansof a feeding mechanism. Referring now to Figs. 5, 6 and 8, cooperating jaws 13 and 14 comprise a chuck for engaging and advancing the Contact metal strip. The lower chuck jaw 13 is notched to correspond to the contour of the lower portion of the strip and is secured to a slide 15 by means of screws 16 and 11. The upper jaw 14 is bifurcated for the reception of 'a removable insert 18 which is notched to correspond to the contour of the upper portion of the contact metal strip 1|. The insert 18 may be removed and another` inserted when the contour of the contact metal strip is changed by merely loosening a holding screw 19. The upper jaw 14 is pivotally mounted on the slide 15 by means of a pivot pin 80 which vpasses through the bifurcated portion B5 of the The upper electrode has a series of .1

slide l5 and the rear portion of the upper jaw. The upper jaw 14 comprises one end of a feed lever 8|, the opposite end of this lever has mounted thereon a cam follower roller 82 which due to the action of atension spring 83 attached thereto causes the roller to follow the peripheral contour of the cam 2| (Fig. 1). The feed lever 8| has formed integral therewith a heel 84.l An adjustable screw 35 passes through the heel and bears against the upper portion of an outwardly projecting part of the slide 'I5 (Fig. 5). Thus' by varying the position of screw 85, the effective distance that the upper jaw will pivot from the lower jaw can be varied. The slide I5 is supported and positioned for sliding movement by gibs'BB and 81 The bearing housing is fastened to the base Il).

Y the slide and surrounding thepushgrod 58 is a compression spring 52, the upper portion of which presses against a hollow plug 53. The hollow mounted in the framev 10 by means of screws 88 and 89. The upper gib 85 is pressed by a spring 96 (Fig. 7) against the slide 15. Adjustably mounted in a Athreadedsection of the frame 10 is a slide limit screw 98 which abuts against the rear face of the slide 15 to limit the rearward motion thereof. By varying either of the adjustable screws 85 or 90, the effective motion imparted to feed the Wire through the machine may be varied.

Depending from the frame 'l0 and pivotallysupported thereon is a check arm 9| provided .to`hold 'assassin the' contact strip material 1| stationary during the return stroke of the feeding jaws' I3-'141. The strip material is in frictional engagement with the. check arm 9| during the feeding operation, thus this check arm will pivot in a countercloclr.- wise direction against the force of a spring 92 allowing the strip to be drawn forward during ieeding. Upon completion oi the forward feed of the strip, the check springV 92 returns the check arrn to its initial position where the check arm wedges the contact strip material against a projectingl section 93 of the frame l0 to prevent retrograde movement.

In feeding the contact material, an advanced portion of the strip 1| fed into a guide channel |i0| (Figs. 16` and 1'?) formed bya pair of plates |112 and |03 mounted on a bracket te, which is secured to a frame |33 by bolts We'. The frame WQ supports a severing mechanism 95 and is secured to the base HI; The guides channel IEM has the same cross section as the stripI and guides the strip to the severing mechanism 95 as it i fed forward by the jaws 'I3-JM.

' The construction of the severing mechanism 95 is shown in Figs. 9 and 15 and the operation of the various parts thereof are illustrated in Figs. 0.11, 12, 13 and 14.

- upper shear jaw is removably secured` to a vertically reciprocating slide F09 lby means of screws |01. The upperv shear jaw has a notch we (Figs. 13 and 14) therein to correspond with the upper cross-sectional contour of the contact strip. This jaw may be removed andrepiaced' when worn or when the cross-sectional contour of the contact strip is changed. The reciprocating slide |06 is positioned for vertical sliding mowe-` rnent within the fixed frame |99l which is secured the base l0.. An L-shaped rocker lvl-'il pivotally mounted by a screw lli to the frame |09- has one arm extending into a slot [i2 in the vertical-ly reciprocating slide |506. At the endof this' arm there is pivotally mounted a block H3 longitudin'ally slidable within the Slot H2 thus when the rock-er illl is oscillated, the motionimparted to they slide ttt willl be a reciprocatory movement in al vertical plane. Mounted on the middle portion di? the other arm of the rocker fill is a cam fcllower roller H4. A spring H5 (Fig. 1) secured at one end to the base fe and at the other end 6; engaging and causing the rocker arm to pivot upon downward movement of slide. |06.

After the contact section to be welded has been severed from the contact strip 1| the severing jaws. "I5- |22 transfer this contact to a positiony in advance of a delivery rod |30. As shown in Fig.` 5 this delivery rod is secured to a reciprocating plunger |3| by means-'0f a collet |32. The plunger [3| is secured to a slidingblock |36 which is slid'ablly positioned within the frame '50. The block |351 is reciprocated by means of an oscillating arm |33 (Fig. 1) pivotally securedto the base-1 l0. Intermediate the ends of' thearm i313 and rigidly' secured thereto is an arm |34 having rotatably mounted thereon a cam follower roller which rides against the peripheral surface of cam 2U. Tending to force the block forward along the longitudinal guide membersA |31' and |38 is a. compression spring |`3"el (Fig. 5). The forward section of the thin flexible delivery rod |30. acts. through a lower guide channel lli@ (Figs. 16 and i7) formed between the plates |52 and S4 and is accurately aligned with the gapl between the severing jaws when they are in their lowermost position.

Positioned to the right of the reciprocating sev# ering jaws and intermediate the welding position as shown in Fig. 16 is a delivery channei |45 formed between a bracket |46 (Figs. 18' and 19) and a guide block |41. The guide block It? is secured to a continuation of' the slide framei129 by means of a screw' |48;

In operating the apparatus, a switch leaf'sprin'g I4 or other electrical part is placed upon thexture |31 with its leftend extending between thel upper and lower welding electrodes lfand Il. The strip of contact material ll is introduced intothe machinel from asupply reel (not. shownl to the rocker arm |||l` insures the engagement of f roller' il@ with the peripheral' face of the cam 22. I'hus displacement of the roller H4 by the rotating cam 22" will osciilate the E.-shaped rocker WG about its pivot il l, simultaneously causing the block H3- to slide in the Slot I2 and' to recipro-A cate the slide |96' in the stationaryframe |569- in accordance with the peripherai contour of rotating-cam Z2.

'Secured in the 'upper part of the slide ft is an upright stud or bracket H6 upon which is pivot'-` ally mounted a rocker arm ill.- In the inoperative. ornormal position as shown in Fig. le' the rocker arm Il is held in a horizontal position by a spring biased rod H9 pressing against the rocker arm. Counter-clockwise rotation -of the rocker arm il? is prevented bymeans of astop |26 secu-red to the stop support'mernber 54 ZYX' The rod H9 passes 4thrcmgh an aperture IZd the upper surface of frame it@ and is main-- tained in its uppermost position by means of the spring H3` acting between an adjustable collar |2-|fand the upper surfacev of the slide it. v- Se'- cured to the-lower end-ofthe-rcdl-is a lower cutter jaw {22.- A--xed stop-|223 isseeured-to the upper-face f the' frame me for-the purpos'ef through the iixed vcylindrical guide 12 and the feed jaws 'i3- and 'i8 to a position adjacent the severing jaws. The operating cycle is then initiated by depresse ing the.- operating rod 26 to cause the one way clutch l2@ to engage the cam shaft with the driving means.y thus. causing the various cams to rotate and actuate the various, mechanisms in. timed sequence..

Rotation of the cam shaft il' rst movesrthe feed lever 8| about its pivot 80- to grip the contact material 7| between the insert 'le and the lower feed jaw '13. Continued movement of the feed leve-r by the cam causes the feed lever 8|;v to move the slide 151 forward to feed the. strip material 'il tothev severing mechanism 95.. After the feeding mechanism has completed its forward motion the feed jaws 'i3 and 74 are returned to their initial position.. Duri-'ng this movement, retrograde motion of the: Contact strip. material is prevented 'by the check arm illv being forced againstthe contact strio by the com-1 bined action of the spring B2 and the wedging eect caused by the contact strip material tend ing to rotate the check arm acainst the stop 93.

-The advanced portion of the contact strip Initial downward motion of the reciprocating slide't causesthe' rocker-warm 'lil to'slightly' pivot in a counterclockwise direction and simultaneously the upper jaw slides into engagement with the contact strip material and grips it against the lower jaw |22. The material now securely grasped by the jaws |05 and |22 is severed from the strip by the shearing action of the jaws |05 and |22 moving past the edge of the guide channel IBI.

The downward movement of the severing jaws |05 and |22 continues, transferring the severed contact to a position in alignment with the delivery rod |30 (Fig. l2). While the downward movement 'of the severing jaws is continuing, the rocker arm follows along with the slide |06 as shown in Fig. 11 vuntil the rocker arm strikes stop member |23 to cause the jaws |05 and |22 to separate upon reaching the lower delivery position as shown in Fig. 12. The sepa'- ration of the severing jaws |05 and |22 in a lower position is not as great as that in the initial starting position; thus the severed contact is prevented from getting out of alignment during the transfer from the jaws |95 and |22 to the guide channel |45. The delivery rod |30 advances the severed Contact from the position between the jaws through the guide channel |45 and onto the leaf spring I4 in the welding position.

As the delivery rod is withdrawn, the-upper and lower welding electrodes l5 and |6 are brought into engagement with the severed contact and the leaf spring I4.` The contact is tightly'pressed against the leaf spring due to the action of the resiliently mounted electrodes.

Welding current is then introduced to the electrodes from a suitable source through flexible leads 48 and 62 and controlled by a switch |21 operated by a cam |20 (Fig. 3) on the cam shaft The weding circuit is not shown for the sake of simplifying the disclosures but any well known suitable circuit can be used for supplying and controlling the welding current.

It is to be understood that the above described embodiment or the invention is simply illustrative of the application of the principles of the invention. Numerous other arrangements and modifications may be readily devised by those skilled in the art which will embody the principles of the invention and fall within the spirit and scope thereof.

What is claimed is:

1. A strand severing and feeding device, a straight line guide channel for guiding a strand, means for feeding the strand through said cl-.annel, a shearing edge transverse to the guide channel, gripping means adapted to cooperate with the shearing edge to shear the strand, means for imparting a translatory movement to said gripping means to grip said strand as it emerges from the guide channel and for moving the said gripping means past the shearing edge to cut the strand and continue movement thereof in the same direction until the gripping means is ad-` vanced to a predetermined position, means operated by the movement of the gripping means for partially releasing the gripping means at said position, and means for transferring the cut portion of the strand from said gripping means.

v 2. In a mechanism for cutting a section from metal stock, a base, a rst jaw sidably mounted in the base, a second jaw slidably mounted within the rst jaw, resilient means for normally holding the jaws in gripping engagement with the stock, a member for guiding the metal stock and having Va shearing edge for cooperating with the jaws, means for moving the first and second jaws into gripping engagement with the stock and for moving the jaws past said shearing edge to shear a section from the stock, and means at each end of the movement of theY jaws for overcoming the resi-lient means to release said jaws.

3. In an apparatus for severing and feeding strandv material, a shearing member, a housing, a first jaw slidably mounted therein, a second jaw spaced from the first jaw and slidably connected thereto, said first and second jaws adapted to cooperate with the shearing member to sever the strand material, resilient means for normally holding the jaws in gripping engagement, means for advancing the strand material intermittently past the shearing 'member and into the jaws, means for moving the jaws into gripping engagement with the advanced strand material and to move said jaws past the shearing member to sever theadvanced material and deliver it to a discharge position, means at each end of the movement of the jaws for overcoming the resilient means to reiease said jaws, and means for discharging the material from the jaws at said discharge position.

4. In a mechanism for feeding and severing strand material, a xed guide channel having a shearing edge transverse to the channel, a rst vertically reciprocating jaw, a second jaw spaced from the lirst jaw and slidably connected thereto, said-first and second jaws adapted to cooperate with the shearing edge to shear the strand material, a resilient means for normally holding the jaws in gripping engagement, a discharge member, means for advancing the strand material through the guide channel and in between the jaws, means for moving the iirst and second jaws in a vertical plane into gripping engagement with the strand material and for moving the gripped material past the shearing edge to sever a section of the material, said movement in a vertical plane' advancing the severed section of material to a position in advance of the discharge member, means at each end of said movement of the jaws in the vertical plane for overcoming the resilient means to release said jaws, and means for actuating the discharge member to transfer the severed material .away from the jaws.

5. In an apparatus for severing sections from a strip of material, a frame, a shearing member mounted on the frame, a jaw slidably mounted on the frame, a second jaw positioned in slidable relation with said rst jaw, said rst and second jaws adapted to cooperate with the shearing member to shear the strip of material, means to intermittently feed the strip material between the jaws, means to slidably move tlte rst jaw toward the second jaw to grip said strip material and to move said gripped strip material past the shearing member to sever a section from the strip, and means operated by the continuing movement of the jaws beyond the shearing member to separate the jaws upon completion of the continuing movement. l

6. In a severing mechanism, a frame, a first siding jaw positioned therein, a second jaw slidably positioned in said frame and in translational sliding relation with the rst jaw, a shearing member positioned adjacent the jaws, said first and second jaws adapted to cooperate with the shearing member to shear a strip of material, resilientmeans for normally holding the jaws in gripping engagement, means to intermittently feedlthe strip material-between the jaws, means formoving the first jaw toward the second .law

to grip a section of the strip material and for moving the rst and second jaws past the shearing member to sever the gripped section of material, a pivoted member secured to the first jaw, and a stop secured to the frame and engaged by the pivoted member upon continued movement of the jaws to overcome the resilient means to separate the jaws.

7. In an apparatus for severing strand material, a frame, a pair of jaws slidably positioned therein, a shearing member secured adjacent the frame, means for moving said jaws into gripping engagement with the material and past the shearing member in motion of translation to sever a section lof strand material, an arm pivotally secured to one of said jaws, and means secured to the frame and engaging said arm upon continuing movement of the jaws for pivoting said arm to impart translatory movement to one of said jaws to separate the jaws.

8. In an apparatus for severing strand material, an upper gripping member, a lower gripping member, a shearing element positioned adjacent the gripping members, said gripping members adapted to cooperate with the shearing element to shear the strand material, means for intermittently feeding a section of strand material over the shearing element and between the gripping members, means for moving said gripping members to grip a section of the strand material and for moving the gripped section of material past the shearing element to sever the section( from the strand, a pivoted arm secured to said upper gripping member, and means secured to the frame and engaging said arm during continued movement of the gripping members for moving said arm about its pivot to impart translatory movement to the lower gripping member to separate said lower member from said upper member.

9. In a strand feeding and severing apparatus, a frame, an upper gripping jaw and a lower gripping jaw slidably mounted within said frame, a rod secured to said lower jaw and slidably positioned within the upper jaw, an operating arm secured to said upper jaw, a fixed guide channel juxtapositioned to said jaws when in their normal open position, means for intermittently advancing the strand between the jaws while in their normal open position, means for moving said upper jaw toward said lower jaw to grip tbe material therebetween and for moving the jaws and gripped material past the guide channel to shear the strand at the juncture between the iixed guide channel and the sides of the jaws. means secured to the frame for engaging the operating arm at a predetermined position whereupon the operating arm engages the rod to separate the jaws, and a reciprocating member aligned with the predetermined open position of the jaws for moving the sheared strand through the jaws.

10. In a strand feeding and severing apparatus, a base, a pair of relatively slidable jaws, a xed guide mounted on said base adjacent said jaws and having a passageway for a strand, means for intermittently advancing the strand through the guide passageway and into the jaws, means for sliding the jaws to grip the strand and shear the advanced portion of the strand at the juncture of the guide and the jaws, means for carrying the jaws downwardly to transfer the severed strand portion to a predetermined position, an arm pivotally secured to one of said jaws and in engagement with the other of said jaws, said arm being pivoted by the downward movement of said i0 one jaw to separate the jaws at the predetermined position, and advancing means aligned with said predetermined position of the jaws for pushing the sheared strand therethrough.

11. In a strand feeding and severing device, a base, a pair of relatively movable jaws slidably mounted therein, a plurality of detachable plates mounted on the base forming a channel for guiding a strand to the jaws, means for intermittently advancing the strand through the channel and between the jaws, means for sliding the jaws to grip and shear the advanced portion from the strand at the juncture of the guide channel and the jaws, means for carrying the jaws downward to transfer the severed section to a predetermined position, means operated by the downward movement of the jaws to partially open the jaws at the lower predetermined position, a reciprocating member aligned with the said predetermined position of the jaws for moving the strand through the jaws.

12. In combination in a severing mechanism, a frame, a pair of 'gripping jaws slidably positioned therein, a rod slidably positioned within one of the jaws and attached to the other jaw, means for intermittently feeding a strip of material to said jaws, a shearing member positioned adjacent the jaws, said jaws adapted to cooperate with the shearing member to shear the strip material, means for sliding said jaws together to grip a section of the material and for moving the jaws and gripped material past the shearing member to shear said gripped section from the strip material, an arm pivotally secured to one of said jaws and in engagement with the rod, and means engaged by the arm during the sliding movement of the jaws for pivoting said arm to move the rod for separating the jaws upon continued movement.

13. In a mechanism for severing strand material, a stationary guide frame, a rst jaw slidably positioned within the frame, a rod slidably mounted within the first jaw, a second jaw secured to the rod and positioned to cooperate with the rst jaw, a pivoted actuator mounted on the rst jaw and engaging the rod, resilient means for urging the rod against the actuator, a stop member secured to the frame for holding the actuator stationary to hold the rod in position to hold the lower jaw spaced from the upper'jaw, means for intermittently feeding sections of the strand material between the open jaws, a shearing member, means for moving the first jaw toward the second jaw to engage the section of material between the jaws and for moving said jaws past the shearing member to sever the section and deliver it to a predetermined position, and a second stop member secured to the frame for pivoting the actuator to move the rod against the force of the resilient means to separate the` jaws upon arrival of the jaws at the predetermined position. Y

FRANK G. WIKSTROM.

REFERENCES CITED The following references are of record in the iile of this patent:

UNITED STATES PATENTS 

